If the Westmere Xeon EP were a car engine, it would've been made by Porsche. With "only" six cores, each core in the new Xeon offers almost twice the performance of the competition. A 32nm CPU that only occupies 248 mm2 the Westmere Xeon EP embodies pure refinement and intelligent performance, both Porsche traits. It's just made in Portland, not Zuffenhausen.

AMD's offering today is very different. Magny-cours is the CPU version of the American muscle car. It's a brutally large 12-core CPU: two dies, each measuring 346mm2 connected by a massive 24 link Hyper Transport pipe. AMD's Magny-cours Opteron has almost two billion transistors and 19.6MB of cache on-die.

12 cores, 692 mm2 die, 19.6MB of cache on-die

It's not all raw horsepower though. At 2.2GHz this 12-core monster is supposed to be content with only 80 precious watts, and 115W at most. HT assist also makes an appearance to keep CPU-CPU accesses to a necessary minimum, a problem that could get out of hand with 12 cores otherwise. AMD originally added HT assist with its first 6-core Opterons. So Magny-Cours is a like hybrid V12 Dodge Viper with traction control. Will this cocktail of raw core muscle and energy savings be enough to beat the competitor from Portland?

For once we could not resist the temptations of car analogies. As interesting as we found the Xeon Westmere EP, something was missing: a challenger, a competitor to make things more exiting. In the last review, we just knew that the Xeon X5670 would crush the competition. This time is going to be close. AMD still won’t have a chance if your application does not scale well with extra cores. In that case you are better off with the higher clocked and better per-core performance of the Intel CPUs. But it is unclear if Intel will prevail in truly multi-threaded software now that a grim and determined AMD is willing to offer two CPUs for the price of one just to win the race.

3ds max crashes because of the mental ray renderer. remove the plugin from loading and max will start up. its due to mental ray cannot see more than 16 threads (physical or virtual via hyper-threading). please do test the max rendering performance. thanksReply

In the final words it states "We estimate that the new Opteron 6174 is about 20% slower than the Xeon 5670 in virtualized servers with very high VM counts. " But in the virtualization section I can't seem to figure out what brought you to that conclusion. The VMmark scores for the Cisco X5680 system was 35.83@26 tiles. You have the VMmark for the 6176SE at 31 which is dead on to the HP DL385 G7 which got 30.96@22 tiles. I see the X5680 15% better at best. And the Cisco x5680 system had 192GB of memory to the HP 6176SE system had 128GB. What am I missing here?Reply

Would it be possible to get the xml parameter files you have used in this test ?We are currently in a trial phase at my company to see how the current crop of intel boxes (dual Xeon X5460 procs) hold up against a new z10 system.Did you run the swingbench on the server itself or did you use a dedicated client to test ?Reply

In 1991 I had an AMD 386-40 that kicked the snot out of Intel pride and joy 486DX2-66. Benchmarks were 25%+ across the board over Intel. Then Intel lied to the market and started passing off cull processors as viable options calling the 25Mhz and 50Mhz processors, when they were actually processors that failed the benchmarks for 33Mhz and 66Mhz respectively.

In 1998 When Win98 Beta was released I was building Servers and workstations at a Tech-company and Again the AMD was kicking the snot out of Intel. Load times on new system builds, boot time and performance. The Intel chips could not hack it. Then when MS release their actual market version of Win98...all of a sudden you could not even use an AMD processor to run it. You had to wait 2 weeks for MS come up with a "AMD Patch" to run on an AMD system.

One think I have seen over 20 years in the industry is that Intel will, Lie, Cheat, Steal and Bribe to try and get the upper hand on AMD. Always have....Always Will!!Reply

i've been an amd fan for as long as i can remember. started fixing computers in 1979. used to fix mai basic four minis in the mid-80s that were built on amd bit-slice bipolar cpus on boards that cost 15,000$.

just got 2 opteron 6172 cpus from ebay for what i thought was peanuts (450 $ each) only to discover upon delivery that both had hairline cracks at a 45 degree angle on one corner of the contact pad surface. looking at their web site i could figure i was out on limb and they would laugh in my face if asked for warranty support on these not-boxed cpus. i know some dumb ass managed to break those cpu corners, and tried to shove the crap to an ebay sucker, but the problem lies deeper, mostly in the g34 socket physical design itself of these otherwise beautiful electronic products. the edge of the metal cover doesn't reach the edge of the fiber board, leaving some unsupported area to be broken by dumb asses mimicking the old days when they could put a 40-pin dip cpu upside-down in its socket. so i'm freshly reviewing my belief system about amd while i figure a solution for this crap-hits-the-fan situation. wish i could have told amd engineers to cover theses last millimeters at the bleeding edge. they might say this and that about warranty, i still hold them responsible for this preventable disaster.